In one embodiment, a proximity camera system is disclosed. The proximity camera system may include a proximity camera having a lens and a housing, fascia, and one or more processors communicatively coupled to the proximity camera and the fascia. The proximity camera system may additionally include a non-transitory computer-readable medium communicatively coupled to the one or more processors and having logic thereon, the logic, when executed by the one or more processors, being configured to perform operations including: (i) receiving an image captured by the proximity camera, (ii) performing object recognition techniques on the image, (iii) determining whether an object was detected within a first predetermined proximity region, and (iv) transmitting one or more instructions configured to cause a graphical display to be displayed by the fascia. In some embodiments, the proximity camera and the fascia may be coupled to a shelving unit.

A method for manufacturing a solar panel includes preparing a laminated body including a plastic protection cover that is light-transmissive and is curved in a convex manner, a flat plastic back cover, a photovoltaic battery cell, and an encapsulant that holds the photovoltaic battery cell in an encapsulated state, mounting the laminated body on a laminating jig such that the back cover abuts the laminating jig, and heating the laminated body with the laminating jig and compression-bonding the laminated body by holding the laminated body between a diaphragm and the laminating jig, thereby obtaining a solar panel from the laminated body. The laminating jig is curved in a convex manner toward the laminated body.

A through the road (TTR) hybridization strategy is proposed to facilitate introduction of hybrid electric vehicle technology in a significant portion of current and expected trucking fleets. In some cases, the technologies can be retrofitted onto an existing vehicle (e.g., a trailer, a tractor-trailer configuration, etc.). In some cases, the technologies can be built into new vehicles. In some cases, one vehicle may be built or retrofitted to operate in tandem with another and provide the hybridization benefits contemplated herein. By supplementing motive forces delivered through a primary drivetrain and fuel-fed engine with supplemental torque delivered at one or more electrically-powered drive axles, improvements in overall fuel efficiency and performance may be delivered, typically without significant redesign of existing components and systems that have been proven in the trucking industry.

A power battery cooling system of an electric vehicle, including: a cooling circuit configured for cooling a power battery of the electric vehicle; a solar sunroof and a sunroof control unit configured for controlling the operation of the cooling circuit and the electric energy output of the solar sunroof wherein the sunroof control unit is configured to start a power battery cooling operation based on the solar sunroof in the condition that the power battery is not in a high voltage output state and the temperature of the power battery is higher than a temperature threshold, the power battery cooling operation including: controlling the solar sunroof to output electric energy to the cooling circuit so that the cooling circuit performs the cooling of the power battery using the electric energy from the solar sunroof.

A glass fastening system includes a fastener having a first portion embedded along an interlayer within a laminated glass portion and a second portion extending outward from an exterior surface of the laminated glass portion for use in attachment to a support structure. Another glass fastening system includes a fastener having a first portion adhered to an exterior surface of a glass pane and a second portion extending from the first portion away from the exterior surface for use in attachment to a support structure. A glass sealing system includes a pair of glass panes having offset edge portions and a seal including an overmold portion capturing the edge portions. Another glass sealing system includes a seal having an internal portion embedded within a laminated glass portion and an external portion extending along an exterior surface of the laminated glass portion.

Apparatus, systems and methods are provided for solar awnings or canopies that include rigid solar modules, for example photovoltaic cells or panels. The awnings have solar modules or panels stacked together substantially vertically (e.g., each module is oriented vertically with respect to the next module). The solar modules in the stack are interconnected to each other, such that each solar module is connected electrically and mechanically to adjacent solar modules. The first solar module in the stack of modules is fixed to one end of the base of the awning. The base of the awning is typically mounted to a building, vehicle, mobile home, or other appropriate structure. The last solar module in the stack is attached to a lead arm of the awning. The lead arm moves back and forth (e.g., away and toward) from the base of the awning to enable the expansion or retraction of the awning.

A power control system may include at least one of batteries, a motor, and a data logic analyzer that can interpret certain variable conditions of a transport, such as a tractor trailer, moving along a road or highway. The data can be used to determine when to apply supplemental power to the wheels of a trailer to reduce fuel usage. One example device may include at least one of a power source affixed to a trailer to capture energy from movement of an axle of the trailer, and a motor powered by the power source to operate and provide movement assistance to the axle.

The present disclosure provides glass, and a manufacturing method and a control method thereof. The glass includes a first glass layer, a plurality of transparent conductive strips and a second glass layer. The plurality of transparent conductive strips are between the first glass layer and the second glass layer, and are configured to generate heat when being supplied with power.

A power control system may include at least one of batteries, a motor, and a data logic analyzer that can interpret certain variable conditions of a transport, such as a tractor trailer, moving along a road or highway. The data can be used to determine when to apply supplemental power to the wheels of a trailer to reduce fuel usage. One example device may include at least one of: a power creation module that generates electrical power, a battery which store the electrical power, a motor affixed to a trailer axle of a trailer which provides a turning force to the trailer axle when enabled to operate from the stored electrical power of the battery, and a motor controller configured to initiate the motor to operate according to a predefined sensor condition.

Apparatus, systems and methods are provided for solar awnings or canopies that include rigid solar modules, for example photovoltaic cells or panels. The awnings have solar modules or panels stacked together substantially vertically (e.g., each module is oriented vertically with respect to the next module). The solar modules in the stack are interconnected to each other, such that each solar module is connected electrically and mechanically to adjacent solar modules. The first solar module in the stack of modules is fixed to one end of the base of the awning. The base of the awning is typically mounted to a building, vehicle, mobile home, or other appropriate structure. The last solar module in the stack is attached to a lead arm of the awning. The lead arm moves back and forth (e.g., away and toward) from the base of the awning to enable the expansion or retraction of the awning.